KOUT 2070 - Introduction to Energy Modelling Fundamentals

The course provides an overview of the energy systems and the ways they are represented in major energy models.
The course is well-suited for students with a good understanding of key concepts in Energy Economics and a strong familiarity with Excel.
It is strongly recommended that students who apply for this course have covered these bases in order to be able to benefit fully from the course. It details the main factors influencing energy demand and supply and outline the fundamentals of four major sectors (building, transport, fossil fuel supply and power). Several examples and calculations are proposed and requested throughout the course – to be done mainly in Excel. The course presents also the main impacts on climate scenarios of energy-related use.
Beyond the energy representations, the course aims to highlight the purposes for which energy models are used, how they work and what are their limits. This would give students a deep understanding of energy models and therefore on the strengths and weaknesses of forward looking studies.
Learning Outcomes and skills: 1. Understand key drivers behind energy modelling 2. Understand how to represent energy policies in energy modelling, to estimate their effects 3. Understand the complexity of energy system modelling, including effectiveness and limitations Professional Skills: - Use of excel tools and calculations related to energy modelling - Develop ability to critically interpret model results.
François CATTIER,Marco BARONI
Séminaire
English
- Attendance: 2 hours a week / 24 hours a semester
- Reading and Preparation for Class: 26 hours a semester
- Research and Preparation for Group Work: 30 hours a semester
- Preparing Home exercises and other excel: 20 hours a semester
Good understanding and familiarity with the use of Excel is mandatory.
Course of Energy Economics.
A self-assessment test will be organized for students interested in this course.
Spring 2022-2023
The course will have two assessments: one mid-term and one final exam.
Both assessments will have a question part and an Excel exercise part.
The assessments will account respectively for 30% and 50% of the final grade.
The remaining 20% will be attributed during the semester following group work and individual Excel exercises.
-Lecture and tutorials
- Excel exercises
- Guest presentation from sectoral experts (buildings and transport)
- Students presentations
- Quizzes
Feedback is provided through personal emails for both mid-term and final exams.
Feedback is provided also for the home exercises and solutions are discussed in session when needed.
1. International Energy Agency, World Energy Outlook, OECD (Executive Summary and main presentation)
2. International Energy Agency, The World Energy Model, https://www.iea.org/weo/weomodel/
3. Modelling framework for the EU Reference Scenario https://ec.europa.eu/energy/en/data-analysis/energy-modelling/modellingfigure
4. International Energy Agency, World Energy Outlook, OECD (selected sections)
5. International Energy Agency, Energy Technology Perspectives, OECD
6. M. Godet, Creating Futures: Scenario Planning as a Strategic Management Tool, Economica 2005
7. Gill Ringland, Scenario Planning: Managing for the Future, Wiley 2006
8. Bohringer C., and Rutherford T., 2007, Combining bottom-up and top-down, Energy Economics;
9. Jebaraj S., Iniyan S., 2006, A review of energy models, Renewable and Sustainable Energy Reviews;
10. Loulou R., Goldstein G. and Noble K., 2004, Documentation for the MARKAL family of models, http://www.etsap.org/
11. A comparison of the TIMES and MARKAL models, http://iea-etsap.org/tools/TIMESVsMARKAL.pdf
12. World Energy Scenarios 2019, World Energy Council, 2019
13. European Energy Perspectives 2019, World Energy Council, 2019
14. Exploring futures to plan energy transition, Raillard N. The Shift Project, 2019